# Why not spherical plot? How to plot 3D-polar-plot in Matlab?

[r,t] = meshgrid(linspace(0,2*pi,361),linspace(0,pi,361));
[x,y]=pol2cart(sin(t)*cos(r),sin(t)*sin(r));
%[x,y]=pol2cart(r,t);
surf(x,y);


I played with this addon but trying to find an default function to for this. How can I do the 3D-polar-plot?

I am trying to help this guy to vizualise different integrals here.

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Why is the 3d-polar plot FEX file you mentioned no good enough? Do you really want a 3d-polar plot or a spherical plot? –  natan Jan 9 '13 at 4:02
@natan I am probably messing up terminology: I want to make it look like circle in 2d and sphere in 3D. –  hhh Jan 9 '13 at 4:04
The current code you added has only 2 coordinates r and t, so I don't understand where the 3rd dimension should come from... a regular polar plot would do. –  natan Jan 9 '13 at 4:07
@natan the radius is assumed to be 1. r stands for $\rho$ and $t$ for $\theta$. –  hhh Jan 9 '13 at 4:44

There are several problems in your code:

• You are already converting spherical coordinates to cartesian coordinates with the sin(theta)*cos(phi) and sin(theta)*sin(phi) bit. Why are you calling pol2cart on this (moreover, we're not working in polar coordinates!)?
• As natan points out, there is no third dimension (i.e. z) in your plot. For unity radius, r can be omitted in the spherical domain, where it is completely defined by theta and phi, but in the cartesian domain, you have all three x, y and z. The formula for z is z = cos(theta) (for unit radius).
• You didn't read the documentation for surf, which says:

surf(Z,C) plots the height of Z, a single-valued function defined over a geometrically rectangular grid, and uses matrix C, assumed to be the same size as Z, to color the surface.

In other words, your surf(x,y) line merely plots the matrix x and colors it using y as a colormap.

Here's the above code with the mistakes fixed and plotted correctly:

[f,t] = meshgrid(linspace(0,2*pi,361),linspace(0,pi,361));
x = sin(t)*cos(f);
y = sin(t)*sin(f);
z = cos(t);
surf(x,y,z)


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